WO2019008290A1

WO2019008290A1 - Electrostatic discharge noise suppression by conduction between a stepped metal element and the pane retainer

Info

Publication number: WO2019008290A1
Application number: PCT/FR2018/051697
Authority: WO
Inventors: Marie-Hélène Debrus; Thomas TONDU
Original assignee: Saint-Gobain Glass France
Priority date: 2017-07-06
Filing date: 2018-07-06
Publication date: 2019-01-10
Also published as: IL271599A; CN110914054A; CA3068913C; US20200223528A1; RU2723030C1; US10906627B2; KR102162767B1; KR20200007053A; CN110914054B; IL271599B; BR112019027743A2; CA3068913A1; EP3648972B1; FR3068857A1; BR112019027743B1; EP3648972A1; PL3648972T3; FR3068857B1

Abstract

The invention relates to a laminated glazing including first and second glass sheets (1; 3) bonded by a first intermediate adhesive layer (2), a peripheral zone of the laminated glazing being covered by a stepped metal element (7), wherein a pane retainer (31) rigidly secured to the mounting structure of the laminated glazing contacts the laminated glazing in order to secure it to its mounting structure, and an electrical conductor (21) connects the stepped metal element (7) and the mounting structure of the laminated glazing via the pane retainer (31); the invention also relates to the uses thereof.

Description

SUPPRESSION OF ELECTROSTATIC DISCHARGE NOISE BY CONDUCTION BETWEEN A METAL ELEMENT IN GRADIN AND THE

ICE PRESS

Aerospace cockpits glazings are assemblies of mineral and / or organic glasses assembled by lamination with interlayer adhesive layers. The penetration of water by diffusion through the interlayer adhesive layers can cause failures of the laminated glazing, for example by promoting delamination or by degrading the electrical systems integrated in the glazing.

A common parry to the penetration of moisture in the adhesive interlayer layers of lamination is the peripheral application of a metal element conforming to a peripheral zone of the laminated glazing, including a stepped metal element as will be seen by the suite, metal element commonly called "Zed" because of the shape of this belt.

This zed is glued to the glass sheets of the laminated glazing and can be covered by an air and water seal, such as silicone or equivalent, and by a "drop" (external seal) providing good durability and aerodynamic properties. This outer seal is polysulfide or equivalent.

The metal zed is therefore within silicone and polysulphide, electrically isolated from the internal electrical elements of the laminated glazing and its mounting structure. It is electrically floating, capable of carrying electrostatic charges. It can be loaded in certain flight conditions at potentials substantially different from those of the aircraft structure. The loading modes of the zed are typically the flights in charging environment: triboelectric charge by impact of environmental particles such as snow, ice, dust, pollution. While the aircraft structure is equipped with discharge systems, elements such as glazing, electrically insulated, accumulate charges.

In particular, the charges collected by the glazing can be partly drained up zed. Potential for discharges electrostatic between zed and airplane structure (or electrical systems integrated with the glazing) can be achieved.

This can be manifested by

- a sound signature disturbing the pilot;

a light signature (flash, sparks) disturbing the pilot;

an electromagnetic signature disturbing the equipment of the aircraft.

The object of the invention is to prevent the appearance of discharge potentials by management of the electric flow towards the electrically-solid ice-wiper of the mounting structure of the laminated glazing unit, in particular the airplane structure.

This object is achieved by the invention which, accordingly, relates to a laminated glazing unit comprising at least a first glass sheet constituting an outer face of the glazing unit, connected to a second sheet of glass by a first interlayer adhesive layer, in which the edge of the first glass sheet is set back from that of the second, a peripheral portion of the free surface of the first glass sheet, the edge of the latter, the edge of the first adhesive layer and a part of the surface of the second glass sheet protruding from the first glass sheet describing a stepped continuous contour which is covered by a stepped metal element, an ice press integral with the mounting structure of the laminated glazing and substantially complementary shape of that of the stepped continuous contour being in contact with the laminated glazing in the volume described by the stepped continuous contour , so as to retain the laminated glazing integral with its mounting structure, characterized in that an electrical conductor connects the stepped metal element and the mounting structure of the laminated glazing through the ice press.

As already indicated, the stepped metal element prevents the penetration of moisture into the interlayer lamination adhesive layers. It can be aluminum, stainless steel or other metal, can be indifferently called "zed" in the following.

Preferably, the electrical resistance between the stepped metal element and the mounting structure of the laminated glazing is at most equal to 30 Ω.

According to other preferred characteristics of the laminated glazing unit of the invention:

it comprises at least a third glass sheet connected to the second glass sheet by a second interlayer adhesive layer; the ice press is bolted / screwed onto the mounting structure of the laminated glazing unit; this arrangement is suitable for mounting the laminated glazing by the outside of its mounting structure;

- According to an alternative, the ice press is integral with the mounting structure of the laminated glazing (it is an integral part thereof); the laminated glazing is then mounted by the inside of its mounting structure, to which it is secured by fixing thereon an inner frame, called inner ice press;

said stepped continuous contour is covered by the stepped metal element (or zed) with the interposition of an outer seal, a part of which is folded over the stepped metal element so as to provide the laminated glazing with good durability and aerodynamic properties; the outer seal is polysulfide or equivalent;

the stepped metal element is covered by an airtight seal and silicone water or equivalent;

the electrical conductor is compressible and passes locally through the seal; it is possible to locally remove the material from the seal, or this material may be absent by the process of forming the seal (injection-molding ...); the compressible electrical conductor may be a foam loaded with electroconductive elements, a spring ...;

- The electrical conductor is positioned in part at the interface between the outer seal and the seal;

the electrical conductor passes locally through the folded portion of the outer seal and is extended contacting to an outer surface of the ice press, including a screw or a bolt for fixing it to the mounting structure of the laminated glazing unit; here again, it is possible to locally remove material from this folded part, or this material may be locally absent by the process of forming the outer seal: injection-molding ...;

the first glass sheet is made of mineral glass having a thickness of between 0.5 and 5, preferably between 2 and 4 mm, or of a polymeric material such as poly (methyl methacrylate) (PMMA) having a thickness of between 0 and 5; , 5 and 5 mm; the second glass sheet and, if appropriate, the third glass sheet, or even the following, are made of mineral glass with a thickness of between 5 and 10 mm, or of a polymeric material such as poly (methyl methacrylate) (PMMA) of thickness between 5 and 30, preferably at most 20 mm; these glass sheets are called "structural folds";

the intermediate adhesive layers are made of polyurethane (PU), polyvinyl butyral (PVB), ethylene-vinyl acetate (EVA) or equivalent, the thickness of the first interlayer adhesive layer is between 3 and 10, preferably 4 and 8 mm and the thickness of the second intermediate adhesive layer and, if appropriate, the following is between 0.5 and 4, preferably at most equal to 2 mm.

Another object of the invention is the application of a laminated glazing described above as building glazing, land vehicle, air or water, or for street furniture, especially as cockpit glazing air vehicle. Aircraft cockpits may have two front windows and two to four side windows.

The invention will be better understood in the light of the following description of the accompanying drawings in which

- Figure 1 is a schematic representation of a laminated glazing according to the invention wherein the electrical conductor is compressible and locally passes through the seal;

- Figure 2 is a schematic representation of a laminated glazing according to the invention wherein the electrical conductor is positioned in part at the interface between the outer seal and the seal

3 is a diagrammatic representation of a laminated glazing unit according to the invention in which the electrical conductor passes locally through the folded part of the outer seal and is extended in contact with an outer surface of the ice press, including a screw or a bolt for fixing it to the mounting structure of the laminated glazing unit.

In these examples, a glass sheet refers to a sheet of aluminosilicate tempered chemical glass, marketed by the Saint-Gobain Sully Company under the trademark Solidion®. Referring to Figures 1, 2 and 3, a laminated glazing unit comprises a first glass sheet 1 constituting an outer face of the glazing, 3 mm thick, bonded to a second glass sheet 3 of 8 mm thick by a first interlayable adhesive layer 2 of polyvinyl butyral (PVB) 5.3 mm thick.

A third 8 mm thick glass sheet 5 is adhered to the second 3 by a second polyvinyl butyral (PVB) interlayer adhesive layer 2 of 2 mm thick.

The edge of the first glass sheet 1 is set back from that of the second 3, a peripheral portion of the free surface of the first glass sheet 1, the edge of the latter 1, the edge of the first adhesive layer interlayer 2 and a portion of the surface of the second glass sheet 3 projecting from the first glass sheet 1 describing a stepped continuous contour which is covered by a stepped metal element 7 made of aluminum.

Said stepped continuous contour is covered by the stepped metal element 7 with the interposition of an outer polysulfide seal 6, a part of which is folded over the stepped metal element 7 so as to provide the laminated glazing of good durability and aerodynamic properties.

The stepped metal element 7 is covered by an airtight and water-tight silicone seal 8.

The laminated glazing shown in Figures 1, 2 and 3 can be installed from the outside of a mounting structure of the laminated glazing, by bolting to the mounting structure of an ice press 31 covering the laminated glazing; this bolting can produce a pinching of the laminated glazing or not, the laminated glazing can also be glued to the ice press 31, and in all cases maintained permanently secured to the mounting structure. The ice press 31 is a frame reported by the outside.

An assembly from the inside is also possible. In this case, the form of the aforementioned ice press is existing but is an integral part of the mounting structure, and it comes to report a frame (ice press) from the inside. Bolting the interior ice press and gluing the laminated glazing can be associated, with or without pinching of the laminated glazing.

Referring to Figure 1, a compressible electrical conductor 21 electrically connects the zed 7 and an inner surface of the ice press 31 through a reserve in the seal 8. The electrical conductor 21 is foam loaded conductive elements .

In FIG. 2, an electrical conductor 21 consisting of an aluminum or stainless steel profile electrically connects the zed 7 and a front surface of the ice press 31, in particular passing through the interface between the outer seal 6 and the seal sealing 8.

In FIG. 3, the electrical conductor 21 passes locally through the folded portion of the outer seal 6 and extends in contact with an outer surface of the ice press 31.

For each of the laminated glazings shown schematically in Figures 1 to 3, the electrical conductor 21 may, at each of its two ends, be brazed, screwed, crimped, glued or pinched according to the configuration of the electrical connection.

No inadvertent discharge of the zed, no disturbing noise signaling this discharge, are observed on the glazing according to the invention.

Claims

1. Laminated glazing comprising at least a first glass sheet (1) constituting an outer face of the glazing, connected to a second sheet of glass

(3) by a first interlayer adhesive layer (2), in which the edge of the first glass sheet (1) is set back from that of the second (3), a peripheral portion of the free surface of the first glass sheet (1), the edge thereof (1), the edge of the first interlayer adhesive layer (2) and part of the surface of the second glass sheet (3) overflowing with the first sheet of glass ( 1) describing a stepped continuous contour which is covered by a stepped metal element, an ice press (31) integral with the mounting structure of the laminated glazing and of a shape substantially complementary to that of the stepped continuous contour being in contact with the laminated glazing in the volume described by the stepped continuous contour, so as to retain the laminated glazing integral with its mounting structure, characterized in that said stepped continuous contour is covered by the metal element stepped (7) with the interposition of an outer seal (6), in that the stepped metal element (7) is covered by a seal (8) for sealing against air and water and an electrical conductor (21) connects the stepped metal element (7) and the mounting structure of the laminated glazing via the ice press (31).

2. Laminated glazing according to claim 1, characterized in that the electrical resistance between the stepped metal element (7) and the mounting structure of the laminated glazing is at most equal to 30 ΜΩ.

3. laminated glass according to one of the preceding claims, characterized in that it comprises at least a third glass sheet (5) connected to the second glass sheet (3) by a second intermediate adhesive layer (4).

4. laminated glazing according to one of the preceding claims, characterized in that the ice press (31) is bolted / screwed on the mounting structure of the laminated glazing.

5. laminated glass according to claim 4, characterized in that the ice press (31) is integral with the mounting structure of the laminated glazing.

6. laminated glazing according to one of the preceding claims, characterized in that a portion of the outer seal (6) is folded over the stepped metal element (7) so as to provide the laminated glazing with good properties durability and aerodynamics.

7. laminated glazing according to claim 1, characterized in that the electrical conductor (21) is compressible and locally passes through the seal (8).

8. Laminated glazing according to claim 1, characterized in that the electrical conductor (21) is positioned in part at the interface between the outer seal (6) and the seal (8).

9. Laminated glazing according to claim 6, characterized in that the electrical conductor (21) passes locally through the folded portion of the outer seal (6) and is extended contacting to an outer surface of the ice press (31), including a screw or a bolt for fixing it (31) to the mounting structure of the laminated glazing unit.

10. Laminated glazing according to one of the preceding claims, characterized in that the first glass sheet (1) is mineral glass thickness between 0.5 and 5, preferably between 2 and 4 mm, or material polymer such as poly (methyl methacrylate) (PMMA) with a thickness of between 0.5 and 5 mm.

1 1. Laminated glazing according to one of the preceding claims, characterized in that the second glass sheet (3), and optionally the third glass sheet (5), or the following ones are made of mineral glass with a thickness of between 5 and 10 mm, or of polymeric material such as poly (methyl methacrylate) (PMMA) with a thickness of between 5 and 30, preferably at most 20 mm.

12. Laminated glazing according to one of the preceding claims, characterized in that the intermediate adhesive layers (2; 4) are polyurethane (PU), polyvinyl butyral (PVB), ethylene-vinyl acetate (EVA) or equivalent, in that that the thickness of the first interlayer adhesive layer (2) is between 3 and 10, preferably 4 and 8 mm, and that the thickness of the second interlayer adhesive layer (4) and, if appropriate, the following is between 0.5 and 4, preferably at most equal to 2 mm.

13. Application of a laminated glazing according to one of claims 1 to 12 as glazing for building, land vehicle, air or water, or for street furniture.

14. Application according to claim 13 as aerated vehicle cockpit glazing.